Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix

Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix

Archontophoenix palms, utilized both as ornamental species and as a source of high-quality heart of palm, are susceptible to sooty mold, a disease coupled with aphid infestation, which affects photosynthesis and causes unpleasant, darkish palm appearance. Scoring rates for sooty mold resistance and three growth traits were assessed under field conditions in 24 open-pollinated half-sibs families, 28 months after planting, aiming to identify genetic variability for sooty mold resistance; estimate genetic parameters for this trait and plant height, diameter and number of leaves; estimate genetic and phenotypic correlation for the four traits and evaluate selection methods for heart of palm production through multi-trait index selection based on growth traits. There were genetic differences among families for all traits. The low coefficient of variation for sooty mold (9.48%) indicates that the visual rating method adopted was effective and feasible for comparing aphid plus sooty mold infestation levels in Archontophoenix. Narrow sense heritability estimates were low and medium for growth traits (0.10, 0.26 and 0.26 for leaves number, plant diameter and height, respectively) and very high (0.91) for sooty mold resistance. Genetic correlation was found between sooty mold resistance and plant height. This positive relationship indicates that culling of very susceptible palms can be done possibily without interference in the follow up indirect selection for heart of palm yield. Some selection strategies were presented, showing that possible genetic gain could range from 6.23 to 11.83%, depending on the selection method adopted and on the effective restriction of the population size.

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Main Authors: Bovi,Marilene Leão Alves, Resende,Marcos Deon Vilela de, Sáes,Luís Alberto, Uzzo,Roberta Pierry
Format: Digital revista
Language:English
Published: Escola Superior de Agricultura "Luiz de Queiroz" 2004
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162004000200009
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spelling oai:scielo:S0103-901620040002000092004-05-14Genetic analysis for sooty mold resistance and heart of palm yield in ArchontophoenixBovi,Marilene Leão AlvesResende,Marcos Deon Vilela deSáes,Luís AlbertoUzzo,Roberta Pierry Capnodium Cerataphis genetic gain heritability King palm Archontophoenix palms, utilized both as ornamental species and as a source of high-quality heart of palm, are susceptible to sooty mold, a disease coupled with aphid infestation, which affects photosynthesis and causes unpleasant, darkish palm appearance. Scoring rates for sooty mold resistance and three growth traits were assessed under field conditions in 24 open-pollinated half-sibs families, 28 months after planting, aiming to identify genetic variability for sooty mold resistance; estimate genetic parameters for this trait and plant height, diameter and number of leaves; estimate genetic and phenotypic correlation for the four traits and evaluate selection methods for heart of palm production through multi-trait index selection based on growth traits. There were genetic differences among families for all traits. The low coefficient of variation for sooty mold (9.48%) indicates that the visual rating method adopted was effective and feasible for comparing aphid plus sooty mold infestation levels in Archontophoenix. Narrow sense heritability estimates were low and medium for growth traits (0.10, 0.26 and 0.26 for leaves number, plant diameter and height, respectively) and very high (0.91) for sooty mold resistance. Genetic correlation was found between sooty mold resistance and plant height. This positive relationship indicates that culling of very susceptible palms can be done possibily without interference in the follow up indirect selection for heart of palm yield. Some selection strategies were presented, showing that possible genetic gain could range from 6.23 to 11.83%, depending on the selection method adopted and on the effective restriction of the population size.info:eu-repo/semantics/openAccessEscola Superior de Agricultura "Luiz de Queiroz"Scientia Agricola v.61 n.2 20042004-04-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162004000200009en10.1590/S0103-90162004000200009
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Bovi,Marilene Leão Alves
Resende,Marcos Deon Vilela de
Sáes,Luís Alberto
Uzzo,Roberta Pierry
spellingShingle Bovi,Marilene Leão Alves
Resende,Marcos Deon Vilela de
Sáes,Luís Alberto
Uzzo,Roberta Pierry
Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
author_facet Bovi,Marilene Leão Alves
Resende,Marcos Deon Vilela de
Sáes,Luís Alberto
Uzzo,Roberta Pierry
author_sort Bovi,Marilene Leão Alves
title Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
title_short Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
title_full Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
title_fullStr Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
title_full_unstemmed Genetic analysis for sooty mold resistance and heart of palm yield in Archontophoenix
title_sort genetic analysis for sooty mold resistance and heart of palm yield in archontophoenix
description Archontophoenix palms, utilized both as ornamental species and as a source of high-quality heart of palm, are susceptible to sooty mold, a disease coupled with aphid infestation, which affects photosynthesis and causes unpleasant, darkish palm appearance. Scoring rates for sooty mold resistance and three growth traits were assessed under field conditions in 24 open-pollinated half-sibs families, 28 months after planting, aiming to identify genetic variability for sooty mold resistance; estimate genetic parameters for this trait and plant height, diameter and number of leaves; estimate genetic and phenotypic correlation for the four traits and evaluate selection methods for heart of palm production through multi-trait index selection based on growth traits. There were genetic differences among families for all traits. The low coefficient of variation for sooty mold (9.48%) indicates that the visual rating method adopted was effective and feasible for comparing aphid plus sooty mold infestation levels in Archontophoenix. Narrow sense heritability estimates were low and medium for growth traits (0.10, 0.26 and 0.26 for leaves number, plant diameter and height, respectively) and very high (0.91) for sooty mold resistance. Genetic correlation was found between sooty mold resistance and plant height. This positive relationship indicates that culling of very susceptible palms can be done possibily without interference in the follow up indirect selection for heart of palm yield. Some selection strategies were presented, showing that possible genetic gain could range from 6.23 to 11.83%, depending on the selection method adopted and on the effective restriction of the population size.
publisher Escola Superior de Agricultura "Luiz de Queiroz"
publishDate 2004
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162004000200009
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